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Evaluation of auxinic herbicides for broadleaf weed control, tolerance of forage bermudagrass hybrids [Cynodon dactylon (L.) Pers.], and absorption and translocation in common ragweed (Ambrosia artemisiifolia L.)Moore, Frederick Thomas 29 August 2005 (has links)
These studies were conducted on several central Texas agricultural producers??
properties, the Stiles Farm Foundation, the Texas Agricultural Experiment Station, and
the Texas A&M University campus. First, an experimental herbicide from Dow
AgroSciences, GF-884, was evaluated for effectiveness in controlling three annual and
three perennial weed species in production pasture lands and hay meadows. Several
rates of GF-884 were examined and evaluated against three registered pasture products
and one non-selective herbicide. Next, GF-884 was assessed for tolerance on two
common bermudagrass hybrids (Cynodon dactylon (L.) Pers.) at three progressive rates
with and without adjuvant. Finally, the herbicides, picloram and fluroxypyr, were
applied to common ragweed (Ambrosia artemisiifolia L.) to characterize their individual
absorption and translocation and assess any influence one might have on the other.
GF-884 applied at rates of 0.91 and 1.14 kg a.e./ha provided >85% and >75%
control of the annual and perennial weed species evaluated, respectively. These same
rates of GF-884 consistently provided control that was equivalent or better than thatachieved with the registered products. No differences were observed among treatments
when shoots from the perennial species were evaluated 12 months following treatment
application. The tolerance experiments utilized GF-884 at rates twice that used to
evaluate weed control efficacy. These elevated rates did not result in discernable
influences on yield or forage quality for either hybrid forage grass when compared to
untreated areas. The efficacy and tolerance observations suggest that GF-884 applied at
the highest recommended weed control rate can effectively control several annual and
perennial weed species without imparting detrimental effects to the hybrid bermudagrass
being produced.
Finally, in the presence of fluroxypyr, 14C picloram absorption was maintained
throughout all sampling intervals. Picloram applied alone, maximized 14C absorption at
6 HAT then declined significantly. At the final sampling, 14C from picloram applied
alone was in greater concentration in the treated leaf and the root.
Picloram significantly decreased absorption of 14C fluroxypyr. Fluroxypyr alone
maintained 14C absorption throughout all samplings, whereas the combination
maximized at 12 HAT. Initially, picloram limited 14C translocation, however at 6, 12,
and 24 HAT this was not evident.
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Characterization and management of glyphosate-resistant giant ragweed (Ambrosia trifida L.) and horseweed [Conyza canadensis (L.) cronq.]Stachler, Jeff M. January 2008 (has links)
Thesis (Ph. D.)--Ohio State University, 2008. / Title from first page of PDF file. Includes bibliographical references (p. 96-107).
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Tools for Improved Management of Buffelgrass in the Sonoran DesertBean, Travis M. January 2014 (has links)
Buffelgrass (Cenchrus ciliaris L.) is an invasive, perennial, C₄ bunchgrass. Buffelgrass has a rapid invasion rate, a tendency to displace native vegetation, and presents a fire risk to native plant communities, adjacent developed areas and their associated infrastructure. Mechanical control is impractical and unable to keep pace with regional spread. Chemical control has offered the most promise for successful and cost-effective management on a regional scale. The predominant herbicide used to control buffelgrass is glyphosate, which requires active vegetative growth when applied for optimum uptake and translocation to meristematic tissue. The timing and duration of active growth is difficult to predict. In this dissertation I addressed three related topics to improve effectiveness of buffelgrass management in the Sonoran Desert. First, I used digital time-lapse photography and weather data to predict the timing and length of future active growth based on day of year and antecedent weather at three sites in the Sonoran Desert near Tucson, AZ that were representative of habitats currently infested by buffelgrass in the region. I was able to correctly predict greenness above or below a threshold of herbicide susceptibility at 81 to 95% for a basin floor site and at 61-88% for slope sites. Second, I evaluated the effects of different rates of two herbicides (imazapic and clethodim), alone or in combination with different rates of glyphosate, for pre- (imazapic only) and postemergence control of buffelgrass. I found a minimum glyphosate application rate of 2.52 kg ae ha⁻¹ glyphosate consistently killed mature buffelgrass plants; clethodim at had no effect on mature buffelgrass; and imazapyr was successful in killing mature plants when applied during the dormant season at 0.56 kg ae ha⁻¹ and provided preemergence control. Imazapic severely damaged but did not kill mature buffelgrass plants at the maximum label rate of 0.21 kg ae ha⁻¹. Finally, we evaluated results from a helicopter broadcast herbicide application trial conducted in the Tucson Mountains. We demonstrated that most species and life forms were less affected than buffelgrass to glyphosate deposition rates achieved in the study, but asserted that procedural changes were necessary to achieve effective buffelgrass control.
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Glyphosate-Resistant Giant Ragweed (Ambrosia trifida L.) in Ontario: Survey and Control in Soybean (Glycine max L.)Vink, Joseph 30 April 2012 (has links)
Giant ragweed is an extremely competitive weed and poor control in soybean could lead to significant yield losses for Ontario producers. In 2008, a giant ragweed biotype near Windsor, ON was not controlled with glyphosate and further testing confirmed it as the first glyphosate-resistant (GR) weed in Canada. Giant ragweed seed was collected from 102 locations in Essex (70), Kent (21), Lambton (10) and Waterloo (1) counties to document the occurrence and distribution of GR giant ragweed in Ontario. Giant ragweed seedlings were sprayed with glyphosate at 1800 g a.e. ha-1, and evaluated 1, 7, 14 and 28 days after application (DAA). Results from the survey concluded that there are 47 additional locations in southwestern Ontario with GR giant ragweed. The majority of the sites were found in Essex county, but there was one location in both Chatham-Kent and Lambton counties. Field trials were established at six sites with GR giant ragweed during the 2010 and 2011 growing seasons. The objectives were to determine the level of giant ragweed control with increasing doses of glyphosate, and glyphosate tank mixes applied either preplant or postemergence. Control of giant ragweed increased with higher doses of glyphosate, but only at doses that are not economical for producers. The most effective glyphosate tank mixes were 2, 4-D ester, saflufenacil, linuron, and cloransulam-methyl providing up to 98, 94, 99 and 97% control 4 weeks after application (WAA), respectively. Glyphosate plus dicamba in dicamba-tolerant soybean provided up to 100% giant ragweed control, 4 WAA at the three confined field trial locations. / Monsanto Canada Inc.; Canadian Agricultural Adaptation Program; Grain Farmers of Ontario
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A lysimeter study to determine fate and transport of three agricultural herbicides under different water table management systems /Jebellie, Seyed J. January 1997 (has links)
Subirrigation systems are generally used in humid areas to provide suitable moisture conditions for plant growth. These systems can also be used to reduce pesticide loadings from agricultural lands, since they tend to keep the discharging waters within farm boundaries for extended periods of time. This allows for greater pesticide microbial and chemical degradation. / A three-year field lysimeter study was initiated to investigate the role of subirrigation systems in reducing the risk of water pollution from the three most commonly used herbicides in Quebec, namely atrazine (2-chloro-4[ethylamino]-6[isopropylamino]-1,3,5-triazine), metribuzin (4-am ino-6(1,1-di meth yl eth yl)-3-(meth yl thio)-1,2,4-tria zin-5(4H)-one), and meto lach lor (2-chlo ro-N-(2-eth yl-6-methyl phen yl)-N-(2-meth oxy-1-meth yl eth yl)acet amide). Eighteen PVC lysimeters, 1 m tall x 0.45 m diameter, were packed with a sandy soil. Three water table management treatments, i.e. two subirrigation treatments with constant water table depths of 0.4 and 0.8 m, respectively, and a free drainage treatment in a completely randomized design with three replicates were used. Grain corn (Zea mays L.) and potatoes (Solanum tuberosum L.) were grown on lysimeters, and herbicides were applied each year at the locally recommended rates at the beginning of each summer. Soil and water samples were collected at different time intervals after each natural or simulated rainfall event. Herbicides were extracted from soil and water samples and were analyzed using Gas Chromatography. / From the three years results (1993--1995), it has been concluded that all three herbicides were quite mobile in this sandy soil, as they leached to the 0.85 m depth below the soil surface quite early in the growing season. This suggests that if the drainage effluent or seeping waters from sandy soils of agricultural lands in southern Quebec drain freely, they may be considered to be a serious non-point source of pollution to the water bodies. The results have also shown that herbicide concentration decreased with soil depth as well as with time, meaning that the higher herbicide residues were found at top layers, and soon after the herbicide application. The herbicide mass balance study revealed that when the drainage effluent was kept within the lysimeters under the subirrigation setup, there was a statistically significant reduction of atrazine and metribuzin residues (shorter half lives) in the adsorbed and liquid phases. However, the reduction in metolachlor concentration under the subirrigation system was not statistically significant. These findings suggest that subirrigation, combined with certain herbicides can significantly reduce the herbicide loadings from corn and potato farms in southwestern Quebec, and become environmentally beneficial. / A computer simulation model (PRZM2), was used to simulate atrazine, metribuzin, and metolachlor leaching in the lysimeters, under subsurface drainage conditions. The simulated values for all three chemicals in most of the cases followed the leaching pattern of observed data. But the model either under- or over-estimated the herbicide concentrations in the soil. This could have been caused by simplistic instantaneous linear adsorption/desorption of herbicides, and inadequacy of conventional Darcian approach for the treatment of matrix flow.
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INFLUENCE OF VARIOUS PLANT POPULATIONS ON WEED REMOVAL TIMING IN GLYPHOSATE-RESISTANT SOYBEANSarver, Jason 01 January 2009 (has links)
Reduced plant population in glyphosate-resistant soybean [Glycine max (L) Merr.] may influence the critical time of herbicide application. Field studies were conducted in 2007 and 2008 at two locations in Kentucky to determine the effect of four weed control programs on soybean seed yield, seed quality, crop canopy, and weed pressure when planted at three densities - 185,000, 309,000, and 432,000 plants ha-1. Plots were treated with glyphosate at either 3 weeks after planting (WAP), 5 WAP, 7 WAP, 3 & 7 WAP, representing common weed control protocols within the state. No differences in seed yield were discovered between plant densities in two of four siteyears. 254,500 plants ha-1 was sufficient for maximum yields in all site-years and was also sufficient to achieve maximum canopy amongst those populations tested in the study. Sequential applications at 3 and 7 WAP provided the highest seed yield, while the 5 WAP and 7 WAP application timings were generally the single applications that allowed for the highest yield and canopy closure, along with the highest visual estimate of weeds controlled. Plant density did not influence the critical period for weed control.
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TWIN AND NARROW ROW WIDTH EFFECTS ON CORN (ZEA MAYS L.) YIELD AND WEED MANAGEMENTMackey, Grant 01 January 2013 (has links)
Corn or maize (Zea mays L.) has been grown in North America for many centuries, and an increase in corn production will continue to be needed. Agriculture producers must meet the demands of feeding and providing for an increasing population of people. In order to meet those needs, different production practices are being investigated as a way to increase grain yield.
Field plots were conducted across the state of Kentucky in 2011 and 2012 to evaluate the interaction between hybrid, row width, and plant density on corn yield. The primary objectives were to test if 1) narrower rows increase grain yield, 2) higher plant densities increase yield in narrow and twin rows, and 3) the interactions among all factors. Three hybrids were evaluated in three row widths (76, 38 cm or twin) at target densities ranging from 74 000 to 124 000 plants ha-1. Interactions between hybrid, row width, and plant density occurred; however, effects on grain yield and plant physiological characteristics were small and variable across all environments. Plant density had the greatest impact on IPAR and grain yield.
Field trials were conducted near Lexington and Princeton, Kentucky in 2011 and 2012 to evaluate the effects of row width on different weed management treatments in corn. The objectives were to 1) evaluate five weed management methods in three row widths (76, 38 cm or twin) and 2) estimate the effect of these practices on corn yield. Herbicides used within each weed management strategy included the residual herbicide S-metholachlor + atrazine (1.4 + 1.8 kg/ha) applied preemergence (PRE) and/or glyphosate (0.86 kg/ha) postemergence (POST). Weed management treatments consisted of a PRE only, PRE followed by POST, POST only, POST + PRE, and an untreated control. Row spacing had little effect on weed suppression and control except for two cases. In general, PRE followed by POST and POST + Residual treatments controlled weeds better compared to PRE only and POST only treatments. Corn yields were higher when a herbicide was used compared to applying no herbicide application.
KEYWORDS: Row spacing, Plant Density, Corn Hybrids, Weed Management, Herbicide Application Timing
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EFFICACY OF DORMANT SEASON HERBICIDE APPLICATION ON CONTROL OF JAPANESE HONEYSUCKLE (<em>LONICERA JAPONICA</em>) FOR HABITAT RESTORATION IN KENTUCKYWeese, Jason L. 01 January 2015 (has links)
Kentucky’s disappearing native grassland communities provide habitat for native flora and fauna. A study was conducted to compare the efficacy of herbicides in control of the invasive Japanese honeysuckle (Lonicera japonica) applied at times when most native species are dormant. Six herbicide mixtures (glyphosate, glyphosate + imazapyr, glyphosate + imazapic, imazapyr, triclopyr + difluphenzopyr, and metsulfuron + difluphenzopyr) were applied in three seasons to assess the effect of application timing of each mixture on honeysuckle control. Herbicides were applied with a CO2 pressurized sprayer at three sites in a randomized complete block design. Pretreatment sampling indicated that Japanese honeysuckle constituted over 70% of plant cover at the study sites. Post-treatment sampling was conducted 60 days, 180 days, 420 days, and 540 days after the final application. All mixtures decreased percent cover of honeysuckle with varying effectiveness. Results indicate that the glyphosate, imazapyr, and metsulfuron + difluphenzopyr mixtures are particularly effective at controlling Japanese honeysuckle when applied at any time between October and April with suitable temperatures. Many native grasses and broadleaf forbs not found during pretreatment sampling also emerged post-treatment, either benefiting from application timing or indicating herbicide tolerance.
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Valutazione della qualità delle acque in fontanili situati in aree agricole nel Nord Italia, misurando 'behavioral responses' degli anfipodi indigeni / EVALUATION OF WATER QUALITY IN FONTANILI SPRINGS LOCATED IN AGRICULTURAL AREAS IN NORTH ITALY BY MEASURING THE BEHAVIORAL RESPONSES OF INDIGENOUS AMPHIPODSMOSZCZYNSKA, AGNIESZKA 16 May 2013 (has links)
Il lavoro qui presentato è incentrato sulla caratterizzazione dei Fontanili - risorgive semi-natural1 comuni della regione Lombardia (Nord Italia), GDES rilevanti per il progetto GENESIS sulle acque sotterranee (progetto europeo finanziato nell'ambito del 7th Framework Programme). Gli obiettivi di questo lavoro di dottorato sono stati:
- Caratterizzare gli ecosistemi Fontanili sulla base delle conoscenze scientifiche disponibili;
- Individuare le risposte ecotossicologiche di un indigeno specie bentoniche macroinvertebrati alla contaminazione agricola attraverso la sperimentazione in Fontanili per verificare se il metodo applicato può servire come bioindicatore della contaminazione negli ecosistemi Fontanili.
Gli obiettivi indicati sono affrontati nelle sezioni seguenti. Sezione 3 caratterizza gli ecosistemi Fontanili sulla base delle conoscenze scientifiche disponibili. La sezione 4 è una rivista di indicatori biologici per la valutazione della qualità delle acque con particolare attenzione alla macroinvertebrati. La sezione 5 presenta i risultati degli studi su Fontanili selezionati con l'uso di un test biologico in situ di alimentazione con un anfipode indigena Echinogammarus stammeri. I capitoli 6 e 7 sono esperimenti di laboratorio condotti per misurare le risposte delle anfipodi di inquinanti agricoli rilevati nei Fontanili studiati.
A parte il lavoro condotto in Italia, l'autore insieme a Sarah Joseffson dal Dipartimento di Scienze acquatica e Valutazione, Università Svedese di Scienze Agrarie a Uppsala, in Svezia eseguito uno studio "Trasferimento di inquinanti organici persistenti da acquatico a ambienti terrestri con insetti acquatici come vettori" nel 2012. La descrizione e preliminari risultati di questo lavoro di studio possono essere trovati nell'appendice I. / The work presented here is focused on characterization of fontanili - semi-natural1 springs common in the Lombardy region (North Italy), relevant groundwater dependent ecosystems for the GENESIS project on groudwater systems (European project funded under the 7th Framework Programme).
The objectives of this PhD work were:
- to characterize the fontanili ecosystems based on the available scientific knowledge;
- to identify ecotoxicological responses of an indigenous macroinvertebrate benthic species to agricultural contamination through experimentation in fontanili ecosystems This will test if the applied method can serve as a bioindicator of contamination in the fontanili ecosystems.
The mentioned objectives are addressed in the following sections. Section 3 characterizes the fontanili ecosystems based on the available scientific knowledge. Section 4 is an overview of biological indicators as water quality assessment with focus on macroinvertebrates. Section 5 presents the results of field studies on selected fontanili sites with the use of an in situ feeding bioassay with an indigenous amphipod Echinogammarus stammeri. Chapters 6 and 7 are laboratory experiments conducted to measure the responses of the amphipods to commonly detected agricultural pollutants in the studied fontanili.
Apart from the work conducted in Italy, the author together with Sarah Joseffson from the Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences in Uppsala, Sweden performed a study “Transfer of persistent organic pollutants from aquatic to terrestrial environments with aquatic insects as vectors” in 2012. The description and preliminary results of this study work can be found in Appendix I.
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The Effects of the Glyphosate-based Herbicide WeatherMax on Sexual Differentiation and Growth in the Wood Frog (Lithobates sylvaticus)Robertson, Courtney 20 February 2013 (has links)
Glyphosate-based herbicides are the dominant pesticide on the market and are utilized worldwide in both the agricultural and forestry industries. Their prevalence comes at a time when concern over the potential effects of pesticide application in amphibian spawning grounds is growing. The primary goal of this thesis was to determine if the glyphosate-based herbicide WeatherMax® has the potential to disrupt sexual differentiation and growth in the wood frog (Lithobates sylvaticus) in a pulse exposure at the predicted maximal environmental concentration (PMEC) of 2.88 mg acid equivalent per liter. This was carried out in laboratory, mesocosm and in-situ field exposures, in an attempt to determine how a potential disruption might vary between experimental environments. In this study, tadpoles from three split-wetlands targeted at the PMEC for WeatherMax were found to display no significant change in survival or growth, however gene expression of several genes involved in steroidogenesis during sexual differentiation (cyp19, cyp17, star, foxl2) were found to be affected. The effects on these genes appeared to be dependant on the exposure concentration of WeatherMax in each wetland, which varied even though all three wetlands were meant to target the PMEC. The wetland that was measured as having the highest herbicide concentration (PMEC 13) was found to have a female biased sex ratio. The results found in the field varied from those found in the more artificial exposures. In the laboratory the PMEC of WeatherMax experienced complete mortality, whereas in the mesocosms survival was not significantly affected. Sex ratios were unaffected in the laboratory, however at the PMEC there was a significant male bias in the mesocosms. The discrepancies in the results obtained from the different exposure types highlights the importance of real world exposures. That the same concentration that caused complete mortality in the laboratory caused sublethal effects in the field is of importance as it denotes that these endpoints may not be easily investigated in these synthetic exposures. This project is a part of the Long Term Experimental Wetlands Area (LEWA) and contributes to the body of information amassed therein on the impact of a glyphosate-based herbicide on amphibians in a wetland ecosystem.
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